EP4280801A1 - Procédé et appareil de commande de communication directe, dispositifs, et support de stockage associé - Google Patents

Procédé et appareil de commande de communication directe, dispositifs, et support de stockage associé Download PDF

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Publication number
EP4280801A1
EP4280801A1 EP21918318.3A EP21918318A EP4280801A1 EP 4280801 A1 EP4280801 A1 EP 4280801A1 EP 21918318 A EP21918318 A EP 21918318A EP 4280801 A1 EP4280801 A1 EP 4280801A1
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EP
European Patent Office
Prior art keywords
reception device
information
time
drx cycle
indication information
Prior art date
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Pending
Application number
EP21918318.3A
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German (de)
English (en)
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EP4280801A4 (fr
Inventor
Qun Zhao
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Beijing Xiaomi Mobile Software Co Ltd
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Beijing Xiaomi Mobile Software Co Ltd
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Publication of EP4280801A1 publication Critical patent/EP4280801A1/fr
Publication of EP4280801A4 publication Critical patent/EP4280801A4/fr
Pending legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • H04W72/25Control channels or signalling for resource management between terminals via a wireless link, e.g. sidelink
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/20Manipulation of established connections
    • H04W76/23Manipulation of direct-mode connections
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/30Services specially adapted for particular environments, situations or purposes
    • H04W4/40Services specially adapted for particular environments, situations or purposes for vehicles, e.g. vehicle-to-pedestrians [V2P]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation
    • H04W72/044Wireless resource allocation based on the type of the allocated resource
    • H04W72/0446Resources in time domain, e.g. slots or frames
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/40Resource management for direct mode communication, e.g. D2D or sidelink
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • H04W76/14Direct-mode setup
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/20Manipulation of established connections
    • H04W76/28Discontinuous transmission [DTX]; Discontinuous reception [DRX]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W92/00Interfaces specially adapted for wireless communication networks
    • H04W92/16Interfaces between hierarchically similar devices
    • H04W92/18Interfaces between hierarchically similar devices between terminal devices
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Definitions

  • the disclosure relates to the field of mobile communication technology, in particular to a sidelink control method, a sidelink control apparatus, a communication device and a storage medium thereof.
  • V2X Vehicle to Everything
  • QoS Quality of Service
  • 5G New Radio (NR) technology is used in 3GPP Release 16 (Rel-16) to support new V2X communication services and scenarios, such as fleet management, perception extension, advanced driving, and remote driving, etc.
  • 5G V2X sidelink can provide higher communication rate, shorter communication delay, and more reliable communication quality.
  • Rel-17 Sidelink (SL) will be further optimized, considering more scenarios such as commercial or public security scenarios, and proposing new optimization goals such as reducing energy consumption of user equipment.
  • a method for controlling a sidelink communication performed by a transmission device includes: sending a sidelink control signaling, in which the sidelink control signaling includes first indication information for controlling Discontinuous Reception (DRX) of a reception device.
  • DRX Discontinuous Reception
  • the sidelink control signaling is a physical-layer sidelink control information (SCI); or the sidelink control signaling is a Media Access Control Control Element (MAC CE).
  • SCI physical-layer sidelink control information
  • MAC CE Media Access Control Control Element
  • the first indication information includes information for indicating a time when the reception device enters an active state.
  • the sidelink control signaling is a physical-layer SCI
  • the physical SCI includes second indication information regarding time/frequency location(s) of reserved resource(s), in which the second indication information is to indicate the time when the reception device enters the active state.
  • the second indication information is to indicate to enter the active state at a time T before the time/frequency location(s) of reserved resource(s).
  • the method further includes determining information of the T by receiving a downlink signaling sent by a network device side or reading pre-configuration information.
  • the physical-layer SCI further includes information for indicating the T.
  • the physical-layer SCI includes an indication on whether the second indication information is used to indicate whether the reception device enters the active state.
  • the first indication information further includes information for indicating an offset of the time when the reception device enters the active state.
  • the information for indicating the offset is determined by receiving a downlink signaling sent by a network device side or reading pre-configuration information.
  • the sidelink control signaling further includes an indication on whether the offset for the time when the reception device enters the active state is carried.
  • the first indication information further includes information for indicating a length of time within which the reception device is in the active state.
  • the information for indicating the length of time within which the reception device is in the active state includes information for indicating an offset by which the length of time within which the reception device is in the active state changes or information for indicating a value of the length of time within which the reception device is in the active state.
  • the information for indicating the offset by which the length of time within which the reception device is in the active state changes is determined by: receiving a downlink signaling sent by the network device side or reading pre-configuration information.
  • the information for indicating the value of the length of time within which the reception device is in the active state is determined by: receiving a downlink signaling sent by the network device side; or reading pre-configuration information.
  • the sidelink control signaling further includes indication information on whether the information for indicating the length of time within which the reception device is in the active state is carried.
  • the first indication information further includes: information for indicating a DRX cycle of the reception device.
  • the information for indicating the DRX cycle of the reception device includes: information for indicating an offset by which the DRX cycle of the reception device changes; or, information for indicating a value of the DRX cycle of the reception device.
  • the information for indicating the offset by which the DRX cycle of the reception device changes is determined by: receiving a downlink signaling sent by a network device side; or reading pre-configuration information.
  • the information for indicating the value of the DRX cycle of the reception device is determined by: receiving a downlink signaling sent by a network device side; or reading pre-configuration information.
  • the sidelink control signaling further includes information on whether the information for indicating the DRX cycle of the reception device is carried.
  • a method for controlling a sidelink communication performed by a reception device includes: receiving a sidelink control signaling, in which the sidelink control signaling includes first indication information for controlling Discontinuous Reception (DRX) of the reception device; and performing a DRX operation based on the first indication information.
  • DRX Discontinuous Reception
  • performing the DRX operation based on the first indication information includes: entering an active state based on information of a time when the reception device enters the active state indicated by the first indication information.
  • the sidelink control signaling is physical-layer sidelink control information (SCI), and the physical-layer SCI includes:
  • second indication information regarding time/frequency location(s) of reserved resource(s), in which the time when entering the active state is determined based on the time/frequency location(s) of reserved resource(s) indicated by the second indication information.
  • the method includes: entering the active state at a time T before the time/frequency location(s) of reserved resource(s).
  • information of the time T is obtained by at least one of: receiving a downlink control signaling sent by a network device side; reading pre-configuration information; or receiving indication information for indicating a value of the T carried by the physical-layer SCI.
  • entering the active state based on the information of the time when the reception device enters the active state indicated by the first indication information includes: adjusting the time when the reception device enters the active state in subsequent DRX cycle(s), based on an offset of the time when the reception device enters the active state indicated by the first indication information.
  • adjusting the time when the reception device enters the active state in the subsequent DRX cycle(s) includes: adjusting, by the reception device, the time when entering the active state in a next DRX cycle based on the first indication information; adjusting, by the reception device, the time when entering the active state in each DRX cycle within a subsequent preset time period based on the first indication information; or adjusting, by the reception device, the time when entering the active state in each subsequent DRX cycle based on the first indication information.
  • adjusting the time when entering the active state in each DRX cycle within the subsequent preset time period includes determining the preset time period by receiving a downlink signaling sent by a network device side; or reading pre-configuration information.
  • the method further includes: in response to receiving a plurality of pieces of information for indicating an offset of the time when the reception device enters the active state within a DRX cycle, adjusting the time when entering the active state in each subsequent DRX cycle based on a last received piece of information for indicating the offset.
  • performing the DRX operation based on the first indication information includes: controlling an active duration in a DRX cycle based on information of a length of time within which the reception device is in the active state indicated by the first indication information.
  • controlling the active duration in the DRX cycle based on the information of the length of time within which the reception device is in the active state indicated by the first indication information includes: extending or shortening the active duration in the DRX cycle based on information for indicating an offset by which the length of time within which the reception device is in the active state changes; or, determining the active duration in the DRX cycle based on information for indicating a value of the length of time within which the reception device is in the active state.
  • controlling the active duration in the DRX cycle includes: controlling, by the reception device, the active duration in a current DRX cycle based on the first indication information; controlling, by the reception device, an active duration in a next DRX cycle based on the first indication information; controlling, by the reception device, an active duration in each DRX cycle within a subsequent preset time period based on the first indication information; or controlling, by the reception device, an active duration in each subsequent DRX cycle.
  • controlling the active duration in each DRX cycle within the subsequent preset time period includes determining the preset time period by receiving a downlink signaling sent by a network device side; or reading pre-configuration information.
  • performing the DRX operation based on the first indication information includes: determining a DRX cycle based on information of the DRX cycle of the reception device indicated by the first indication information.
  • determining the DRX cycle based of the information on the DRX cycle of the reception device indicated by the first indication information includes: extending or shortening the DRX cycle based on information for indicating an offset by which the DRX cycle of the reception device changes; or, determining the DRX cycle based on information for indicating a value of the DRX cycle of the reception device.
  • determining the DRX cycle includes: determining, by the reception device, a current DRX cycle based on the first indication information; determining, by the reception device, a next DRX cycle based on the first indication information; determining, by the reception device, each DRX cycle within a subsequent preset time period based on the first indication information; or determining, by the reception device, all subsequent DRX cycles based on the first indication information.
  • determining each DRX cycle in the subsequent preset time period includes: determining the preset time period by receiving a downlink signaling sent by a network device side; or reading pre-configuration information.
  • an apparatus for controlling a sidelink communication applied to a transmission device includes: a sending module, configured to send a sidelink control signaling, in which the sidelink control signaling includes first indication information for controlling Discontinuous Reception (DRX) of a reception device.
  • a sending module configured to send a sidelink control signaling, in which the sidelink control signaling includes first indication information for controlling Discontinuous Reception (DRX) of a reception device.
  • DRX Discontinuous Reception
  • an apparatus for controlling a sidelink communication applied to a reception device includes: an indicating module, configured to receive a sidelink control signaling, in which the sidelink control signaling includes first indication information for controlling Discontinuous Reception (DRX) of the reception device; and an operating module, configured to perform DRX operation based on the first indication information.
  • a sidelink control signaling in which the sidelink control signaling includes first indication information for controlling Discontinuous Reception (DRX) of the reception device
  • DRX Discontinuous Reception
  • a communication device includes: a processor, a transceiver, a memory, and a computer program stored on the memory.
  • the computer program is executed by the processor, the method for controlling a sidelink communication according to the first aspect of embodiments is implemented.
  • a communication device includes: a processor, a transceiver, a memory, and a computer program stored on the memory.
  • a method for controlling a sidelink communication according to the second aspect of embodiments is implemented.
  • a processor-readable storage medium having a computer program stored thereon.
  • the computer program is configured to cause a processor to perform a method for controlling a sidelink communication according to the first aspect of embodiments or the method for controlling a sidelink communication according to the second aspect of embodiments.
  • the methods and the apparatus for controlling a sidelink communication and the communication devices according to the disclosure at least have the following technical effects.
  • the transmission device flexibly controls the active duration of the DRX of the reception device through the sidelink control signaling, thereby balancing the system communication performance and the energy saving requirement.
  • the relevant User Equipment in order to realize the discontinuous reception (DRX) energy saving of the R17 NR sidelink, the relevant User Equipment (UE) enters a sleep mode by turning off a receiver for energy saving. In the sleep state, the UE may not perform sidelink transmission reception and channel measurement operations to save energy.
  • the UE can periodically run the DRX on timer.
  • the DRX on timer When the DRX on timer is running, the UE is in an active state to carry out downlink control channel detection and reception.
  • the DRX on timer expires, the UE can switch to an inactive state and there is no need to carry out downlink reception operation.
  • the start time, the period, and the running time of the DRX on timer can be preconfigured or configured by a base station, which do not belong to the content of this patent and will not be repeated.
  • the DRX operation of the reception UE will affect the resource selection of the transmission UE. If the sending resource selected by the transmission UE is within a DRX off time period of the reception UE, the reception UE will not be able to receive sidelink transmission. If the transmission UE cannot control and adjust the DRX of the reception UE, the transmission UE needs to ensure that the time/frequency resource(s) selected for its sidelink transmission is/are within an active duration of the reception UE.
  • the transmission UE may not be able to ensure that the reserved time/frequency resource(s) is/are within the active duration of the reception UE.
  • the disclosure provides a scheme in which the transmission UE can control and adjust the DRX of the reception UE.
  • the transmission device and the reception device are a transmission UE and a reception UE for the sidelink data communication respectively.
  • the transmission device and the reception device may be mobile terminals.
  • FIG. 1 is a flowchart illustrating a method for controlling a sidelink communication according to an embodiment of the disclosure. The method includes the following.
  • a sidelink control signaling is sent.
  • the sidelink control signaling includes first indication information for controlling a DRX of a reception device.
  • the transmission device sends the sidelink control signaling containing the first indication information for controlling the reception device to perform related DRX operations, so that the transmission device directly indicates the DRX operation of the reception device, to avoid a problem that the transmission device cannot ensure that the reserved resource(s) is/are within the active duration of the reception device.
  • the balance between the energy saving and the system performance is achieved.
  • the reserved resource(s) of the transmission device as described above may be time/frequency location(s) of reserved resource(s) of the transmission device used for future sidelink transmission communications.
  • the purpose of the disclosure is to make the reception device to be in an active state before the time/frequency location(s) of reserved resource(s).
  • the sidelink control signaling is a physical-layer sidelink control information (SCI). That is, the sidelink control signaling is transmitted through the physical-layer SCI.
  • the sidelink control signaling is a Media Access Control Control Element (MAC CE). That is, the sidelink control signaling is transmitted through the MAC CE.
  • SCI physical-layer sidelink control information
  • MAC CE Media Access Control Control Element
  • the transmission device directly sends the sidelink control signaling to the UE.
  • the sidelink control signaling includes the first indication information for controlling the DRX of the reception device.
  • the first indication information for controlling the reception device to perform related DRX operations carried by the sidelink control signaling sent by the transmission device may include any indication content that can support successful connection between the transmission device and the reception device.
  • the first type of indication content is the first type of indication content
  • the first indication information includes information for indicating a time when the reception device enters an active state, so that the transmission device reserves resource(s) for the reception device to enter the active state.
  • the sidelink control signaling is a physical-layer sidelink control information (SCI).
  • the physical-layer SCI includes: second indication information regarding time/frequency location(s) of reserved resource(s) for the future sidelink transmission.
  • the second indication information regarding the time/frequency location(s) of reserved resource(s) is further to indicate the time when the reception device enters the active state. Therefore, the reception device enters an active receiving state before the time/frequency location(s) of reserved resource(s), to avoid the energy consumption and improve the system performance.
  • the second indication information for indicating the time when the reception device enters the active state may include different contents.
  • the indication information regarding the time/frequency location(s) of reserved resource(s) also indicates the time when the reception device enters the active state, including entering the active state at a time T before the time/frequency location(s) of reserved resource(s), to ensure that the reception device enters the active receiving state at the time T before the time/frequency location(s) of reserved resource(s) of the transmission device.
  • the "time T before” refers to the time T before a certain reference time location of the reserved time/frequency resource(s).
  • the reference time location is an initial Orthogonal Frequency Division Multiplexing (OFDM) symbol location of a time/frequency resource, or a slot where a reserved time/frequency resource is located.
  • the unit of T can be a physical time unit or a logical time unit, such as, second, millisecond, frame, subframe, slot, OFDM symbol, slot that has time/frequency resource(s) suitable for the sidelink, etc.
  • the value range of T may include 0, the value of T may be a fixed value, or the value of T may be determined by the capability of the device.
  • Information of T can be determined based on a downlink signaling received from a network side such as a base station or by reading pre-configuration information.
  • the information of the T includes a value of T or a value range of T mentioned above.
  • the information of the T is included in a physical-layer control information.
  • the information of the T includes a value or a value range of the T.
  • the physical-layer control information includes an indication on whether the second indication information is used to indicate the time when the reception device enters the active state. It is understandable that the physical-layer control information includes an indication on whether the second indication information is used to indicate the time when the reception device enters the active state.
  • the value of an information bit representing the indication on whether the second indication information is used to indicate whether the reception device enters the active state is 1, it means that the second indication information is used to indicate whether the reception device enters the active state. If the value of the information bit is 0, it means that the second indication information is not used to indicate whether the reception device enters the active state.
  • information for indicating the value of T is carried in a 1st stage SCI or a corresponding 2nd stage SCI.
  • the reception device enters the active state according to the time/frequency location(s) of reserved resource(s) in the 1st stage SCI, the value of T indicated in the 1st stage SCI or the corresponding 2nd stage SCI is used.
  • the first indication information regarding the time/frequency location(s) of reserved resource(s) includes: information for indicating an offset of the time when the reception device enters the active state, to ensure that the reception device enters the active receiving state before the time/frequency location(s) of reserved resource(s) of the transmission device.
  • the information for indicating the offset of the time when the reception device enters the active state can be obtained by receiving a downlink signaling from a network side such as a base station, or, by reading pre-configuration information.
  • the information for indicating the offset includes a value or a value range of the offset.
  • the configured offsets are ⁇ -8,-4,-2, 0, 2, 4, 8 ⁇ , and the specific value of the offset is indicated by an indication of 3 bits.
  • the reception device adjusts the time when entering the active state in a next cycle according to a received offset indication. For example, if the indicated offset is -4 slot, then the reception device enters the active state 4 slots earlier in the next cycle. If the indicated offset is 2 slot, then the reception device enters the active state 2 slots later in the next cycle.
  • the unit of the offset indicated here and thereafter can be either a physical time unit or a logical time unit, such as second, millisecond, frame, subframe, slot, OFDM symbol, a slot having time/frequency resource(s) suitable for the sidelink, etc.
  • the reception device determines the time to start the DRX on timer according to the current frame number and the current slot number.
  • the offset indication is the indicated offset carried here.
  • An indication on whether this transmission carries an offset indication may be included in the physical-layer SCI, or whether the offset indication is carried in this sidelink control signaling is implicitly indicated through different sidelink control signaling formats. For example, by defining different 2nd stage SCI formats, the information field of the offset indication is included in the physical-layer SCI only when a specific 2nd stage SCI is selected.
  • the offset indication carried in the physical-layer SCI or the MAC CE may be applied only to the next DRX cycle, or may be applied to each DRX cycle in a subsequent time period, or may be applied to all subsequent DRX cycles. If the offset indication is applied to each DRX cycle within the subsequent time period, the length of the time period can be configured by the base station or may be determined through a pre-configuration method.
  • the reception device When the reception device receives, in one DRX cycle, multiple sidelink control signaling each carrying the offset indication, the reception device can use the last received offset indication.
  • the second type of indication content is the second type of indication content
  • the first indication information for controlling the reception device to perform the DRX includes: information for indicating a length of time within which the reception device is in the active state.
  • the information for indicating the length of time within which the reception device is in the active state includes: information for indicating an offset by which the length of time within which the reception device is in the active state changes; or, information for indicating a value of the length of time within which the reception device is in the active state.
  • an indication on whether this transmission carries an offset indication may be included in the sidelink control signaling, or whether this transmission carries the offset indication may be indicated implicitly through different sidelink control signaling formats.
  • the offset indication is to indicate whether the information for indicating the length of time within which the reception device is in the active state is carried.
  • the information for indicating the length of time may include different contents.
  • the information for indicating the offset by which the length of time within which the reception device is in the active state changes includes a value or a value range of the offset by which the length of time within which the reception device is in the active state changes by receiving a downlink signaling sent by the base station side or by reading pre-configuration information.
  • the reception device may extend or shorten the active duration of this DRX cycle based on the received offset. For example, the reception device extends or shortens the expire time of DRX on timer.
  • the information of the offset by which the length of time within which the reception device is in the active state changes is obtained by receiving a downlink signaling sent by the network device such as the base station or reading pre-configuration information.
  • the information includes a value or a value range of the offset.
  • the information for indicating the value of the length of time within which the reception device is in the active state includes: obtaining the information for indicating the length of time within which the reception device is in the active state by receiving a downlink signaling sent by the network device side such as the base station or reading the pre-configuration information.
  • the information includes a value or a value range of the length of time.
  • the first indication information includes: information of the DRX cycle of the reception device.
  • the information may be applied only to the current DRX cycle, to the next DRX cycle, to DRX cycles within a subsequent time period, or to all subsequent DRX cycles. If the information is applied to the DRX cycles within the subsequent time period, the length of the time period may be configured by the base station or a pre-configuration method.
  • the first indication information may include different contents in different application scenarios, examples of which are illustrated below.
  • the indication information includes information for indicating an offset by which the DRX cycle of the reception device changes.
  • the configured offset is ⁇ -8, -4, -2, 0, 2, 4, 8 ⁇ , and the specific value of the offset is indicated by information of 3 bits.
  • the unit of the offset indicated here can be either a physical time unit or a logical time unit, such as second, millisecond, frame, subframe, slot, OFDM symbol, slot with time/frequency resource(s) suitable for the sidelink, etc.
  • the indication information includes information for indicating a value of the DRX cycle of the reception device, for example, indicating the active duration and an exit duration of the DRX cycle of the reception device.
  • the information of the offset by which the DRX cycle of the reception device changes can be obtained by receiving the downlink signaling sent by the network device side such as the base station side or reading the pre-configuration information.
  • the information of the offset includes a value or a value range of the offset.
  • the information of the DRX cycle of the reception device can be obtained by receiving a downlink signaling sent by the network device side such as the base station side or reading pre-configuration information.
  • the information includes a value or a value range of the DRX cycle.
  • whether the indication information for indicating the DRX cycle of the reception device is carried can be included in the sidelink control signaling, or an indication on whether this sidelink control signaling transmission carries the value of the DRX cycle can be implicitly indicated by different sidelink control signaling formats.
  • whether an indication of the DRX cycle of the reception device is carried in this sidelink control signaling transmission is indicated through the 1st stage SCI, the 2nd stage SCI, or a combination of the 1st stage SCI and the 2nd stage SCI, or implicitly indicated through other SCI formats, for example, through 1-bit information field carried in the 1st stage SCI or the 2nd stage SCI.
  • the reception device Only when the indication is "yes", the reception device enters the active state based on the reservation information of resource(s) contained in the 1st stage SCI corresponding to the 1st stage SCI or this 2nd stage SCI transmission.
  • the 1st stage SCI corresponding to the 2nd stage SCI mentioned here means that they correspond to the same Physical Sidelink Shared Channel (PSSCH) transmission.
  • PSSCH Physical Sidelink Shared Channel
  • the indication information of the DRX cycle may only be applicable for a subsequent period of time in the future, and the length of the period of time may be configured by the base station or a pre-configuration method.
  • the information for indicating the reception device to perform the DRX operation can be generated through different ways in different scenarios. Therefore, the flexibility of indicating the sidelink is improved.
  • FIG. 2 is a flowchart of another method for controlling a sidelink communication according to an embodiment of the disclosure.
  • a sidelink control signaling is received.
  • the sidelink control signaling includes first indication information for controlling DRX of the reception device.
  • the reception device receives the sidelink control signaling sent by the transmission device.
  • the sidelink control signaling carries the first indication information for controlling the DRX of the reception device.
  • the indication information includes a variety of possible formats that will be described in subsequent implementations and will not be repeated here.
  • a DRX operation is performed based on the first indication information.
  • the reception device directly performs the DRX operation according to the first indication information, such that the reception device enters the active state on the reserved resource(s), thereby balancing the system performance and the energy consumption.
  • the resource reservation information of resource(s) reserved by the transmission device in this embodiment may be a non-periodic resource reservation field for indicating the time/frequency resource(s) for the subsequent repetition transmission(s) of the same Transport Block (TB), or a periodic resource reservation field for indicating the value of the resource reservation period.
  • the reception device may enter the active state only according to time domain location(s) of reserved resource(s) indicated by the periodic reservation, or may enter the active state only according to the time domain location(s) of reserved resource(s) indicated by the non-periodic reservation, or according to both.
  • the reception device receives the sidelink control signaling sent by the transmission device, and the sidelink control signaling carries the first indication information for controlling the reception device to carry out the DRX operation.
  • the reception device may carry out the DRX operation according to the first indication information, to avoid the problem that the transmission device cannot ensure that the reserved resource(s) is/are in the active duration of the reception device, thereby balancing the energy saving and the system performance.
  • the manner in which the UE performs the DRX operation according to the indication information may vary according to different scenarios.
  • any method for performing the adjustment according to the reserved resource(s) of the transmission device can be included.
  • three possible implementations will be described as examples.
  • performing the DRX operation according to the first indication information includes: entering an active state based on information of a time when the reception device enters the active state indicated by the first indication information.
  • the reception device enters the active state on the reserved time/frequency resource(s), thereby avoiding the increase of the energy consumption.
  • the indication information of the time when the reception device enters the active state may be different in different scenarios, and examples are as follows.
  • the reception device enters the active state at the time T before the reserved time/frequency resource(s) indicated by the indication information of the time/frequency location(s) of reserved resource(s).
  • T can be obtained by receiving a downlink control signaling sent by a network device side such as a base station side, based on pre-configuration information, or by receiving the indication information of the value of T carried in the physical-layer SCI.
  • the time T before refers to the T before a certain reference time location of the reserved time/frequency resource(s).
  • the reference time location is an initial OFDM symbol location of a time/frequency resource, or a slot where a reserved time/frequency resource is located.
  • the unit of T can be a physical time unit or a logical time unit, such as, second, millisecond, frame, subframe, slot, OFDM symbol, slot with time/frequency resource(s) suitable for sidelink, etc.
  • the value range of T may include 0, the T may be a fixed value, a value of the T can be determined by the capability of the device, or a value of the T can be determined by a downlink control signaling received from the base station, or by reading pre-configurations information.
  • the indication information of the time/frequency location(s) of reserved resource(s) in the physical-layer control information also indicates the time when the reception device enters the active state.
  • the information for indicating the value of T is carried in the 1st stage SCI or the corresponding 2nd stage SCI.
  • the reception device enters the active state according to the time/frequency location(s) of reserved resource(s) in the 1st stage SCI, the value of T indicated in the 1st stage SCI or the corresponding 2nd stage SCI is used.
  • entering the active state based on the information of the time when the reception device enters the active state indicated by the first indication information includes: adjusting the time when the reception device enters the active state in subsequent DRX cycle(s), based on an offset of the time when the reception device enters the active state indicated by the first indication information.
  • the configured offsets are ⁇ -8, -4, -2, 0, 2, 4, 8 ⁇ , and the specific value of the offset is indicated by an indication of 3 bits.
  • adjusting the time when the reception device enters the active state in the subsequent DRX cycle(s) based on the first indication information for indicating the offset of the time when the reception device enters the active state includes at least one of the followings.
  • the unit of the offset indicated here and thereafter can be either a physical time unit or a logical time unit, such as second, millisecond, frame, subframe, slot, OFDM symbol, slot with time/frequency resource(s) suitable for the sidelink, etc.
  • the reception device determines the time when the DRX on timer is started in the next DRX cycle according to the current frame number and the current slot number.
  • DFN the number of slots contained in 1 frame + the current slot number
  • % (the DRX cycle) (configured offset) % (the DRX cycle)
  • DFN the frame number of the sidelink
  • the DRX cycle and the configured offset are configured by the base station or the value thereof are pre-configured.
  • the time when the reception device enters the active state in DRX cycles within a subsequent preset time period is adjusted according to the first indication information for indicating the offset of the time when the reception device enters the active state.
  • all DRX cycles included in the subsequent preset time period are determined, and the time when the reception device enters the active state in all DRX cycles may be advanced or delayed according to the offset.
  • a length of a preset time period for adjusting by the reception device the time when entering the active state in subsequent DRX cycles within the subsequent preset time period by receiving a downlink signaling sent by a network device side such as a base station side, or by reading pre-configuration information.
  • the reception device enters the active state 4 slots earlier in all DRX cycles within the preset time period. If the indicated offset is 2 slot, the reception device enters the active state 2 slots later in all DRX cycles within the preset time period.
  • the unit of the offset indicated here and thereafter can be either a physical time unit or a logical time unit, such as second, millisecond, frame, subframe, slot, OFDM symbol, slot with time/frequency resource(s) suitable for the sidelink, etc.
  • the reception device determines the time when the DRX on timer is started in all subsequent DRX cycles within the preset time period according to the current frame number and the current slot number.
  • the time when the reception device enters the active state in all subsequent DRX cycles is adjusted according to the first indication information for indicating the offset of the time when the reception device enters the active state.
  • the time when the reception device enters the active state in all the subsequent DRX cycles may be advanced or delayed according to the offset.
  • the reception device enters the active state 4 slots earlier in all the subsequent DRX cycles. If the indicated offset is 2 slots, the reception device enters the active state 2 slots later in all the subsequent DRX cycles.
  • the unit of the offset indicated here and thereafter can be either a physical time unit or a logical time unit, such as second, millisecond, frame, subframe, slot, OFDM symbol, slot with time/frequency resource(s) suitable for the sidelink, etc.
  • the reception device determines the time when the DRX on timer is started in all the subsequent DRX cycles according to the current frame number and the current slot number.
  • the last received piece of indication information for indicating the offset is used to adjust the time when the reception device enters the active state in the subsequent DRX cycles.
  • performing the DRX operation based on the first indication information includes: controlling an active duration in the DRX cycle based on information of a length of time within which the reception device is in the active state indicated by the first indication information.
  • the active duration in the DRX cycle is extended or shortened according to the offset by which the length of the time within which the reception device is in the active state changes.
  • the active duration in the DRX cycle is determined according to the information for indicating the value of the length of time during which the reception device is in the active state.
  • Determining the active duration in the DRX cycle according to the information of the value of the length of time during which the reception device is in the active state may include the following.
  • the active duration in the next DRX cycle is controlled according to the first indication information for indicating the length of time within which the reception device is in the active state.
  • the active duration in the DRX cycles in the subsequent preset time period is controlled according to the first indication information for indicating the length of time within which the reception device is in the active state.
  • a length of a preset time period for controlling by the reception device the active duration of all DRX cycles within the subsequent time period by receiving a downlink signaling sent by a network device side such as a base station side, or by reading pre-configuration information.
  • the active duration in all the subsequent DRX cycles is controlled according to the first indication information for indicating the length of time within which the reception device is in the active state.
  • the length of time within which the reception device is in the active state is directly used as the active duration in all the subsequent DRX cycles.
  • performing the DRX operation based on the first indication information includes: determining a DRX cycle based on indication information of the DRX cycle of the reception device indicated by the first indication information.
  • the indication information may contain different contents, and examples are as follows.
  • the indication information includes information for indicating an offset by which the DRX cycle of the reception device changes.
  • the DRX cycle is extended or shortened according to the information for indicating the offset by which the DRX cycle of the reception device changes.
  • the configured offsets are ⁇ -8, -4, -2, 0, 2, 4, 8 ⁇ , and the specific value of the offset is indicated by an indication of 3 bits.
  • the unit of the offset indicated here can be either a physical time unit or a logical time unit, such as second, millisecond, frame, subframe, slot, OFDM symbol, slot with time/frequency resource(s) suitable for the sidelink, etc.
  • the indication information includes information for indicating a value of the DRX cycle of the reception device, so that the DRX cycle is determined according to the information for indicating the value of the DRX cycle of the reception device.
  • the information for indicating the value includes an active duration and an exit duration of the DRX cycle of the reception device.
  • determining the DRX cycle based on the indication information of the DRX cycle of the reception device carried in the sidelink control signaling includes any of the followings.
  • determining the current DRX cycle by the sidelink directly according to the indication information for indicating the DRX cycle of the reception device includes adjusting the current DRX cycle only according to the indication information.
  • the next DRX cycle is determined based on the first indication information for indicating the DRX cycle of the reception device.
  • determining the next DRX cycle directly according to the indication information for indicating the DRX cycle of the reception device includes adjusting the next DRX cycle only according to the indication information.
  • the DRX cycles in the subsequent preset time period are determined according to the first indication information for indicating the DRX cycle of the reception device.
  • the reception device can determine the length of the preset time period for determining by the reception device the DRX cycles in the subsequent preset time period by receiving a downlink signaling sent by the network device side such as the base station side or by reading pre-configuration information.
  • all the DRX cycles in the subsequent preset time period are determined. All DRX cycles in the subsequent preset time period are determined according to the indication information for indicating the DRX cycle of the reception device. All DRX cycles in the subsequent preset time period are adjusted according to the indication information.
  • All subsequent DRX cycles are determined according to the first indication information for indicating the DRX cycle of the reception device.
  • all subsequent DRX cycles are determined. All the subsequent DRX cycles are determined according to the indication information for indicating the DRX cycle of the reception device. All subsequent DRX cycles within the subsequent preset time period are adjusted according to the indication information.
  • the DRX operation can be performed based on the indication information of the DRX operation sent by the transmission device through different ways flexibly depending on different scenarios. In this way, the flexibility of the DRX operation is improved during the sidelink communication.
  • the disclosure also provides an apparatus for controlling a sidelink communication. Since the apparatus according to embodiments of the disclosure corresponds to the methods according to the above embodiments, the implementations of the methods for controlling a sidelink communication are applicable to the apparatus for controlling a sidelink communication according to embodiments, which will not be described in detail in this embodiment.
  • FIG. 3 is a schematic diagram illustrating an apparatus for controlling a sidelink communication according to an embodiment of the disclosure.
  • the apparatus is applied to a transmission device.
  • the apparatus includes: a sending module 301.
  • the sending module 301 is configured to send a sidelink control signaling.
  • the sidelink control signaling includes first indication information for controlling the DRX of a reception device.
  • the transmission device directly sends the sidelink control signaling to the UE, in which the sidelink control signaling carries the first indication information for controlling the reception device to perform the DRX operation, to avoid the problem that the transmission device cannot ensure that the reserved resource(s) is/are in the active duration of the reception device. Therefore, the balance between the energy saving and the system performance is achieved.
  • the disclosure also provides an apparatus for controlling a sidelink communication. Since the apparatus for controlling a sidelink communication according to embodiments of the disclosure corresponds to the method according to the above embodiments, the implementations of the methods for controlling a sidelink communication are applicable to the apparatus for controlling a sidelink communication according to embodiments, which will not be described in detail in this embodiment.
  • FIG. 4 is a schematic diagram illustrating another apparatus for controlling a sidelink communication according to an embodiment of the disclosure.
  • the apparatus is applied to a transmission device.
  • the apparatus for controlling a sidelink communication includes: an indicating module 401 and an operating module 402.
  • the indicating module 401 is configured to receive a sidelink control signaling, in which the sidelink control signaling includes first indication information for controlling the DRX of a reception device.
  • the operating module 402 is configured to perform a DRX operation based on the first indication information.
  • the reception device receives the sidelink control signaling sent by the transmission device, in which the sidelink control signaling carries the first indication information for controlling the reception device to perform the DRX operation, and the reception device performs the DRX operation according to the first indication information, to avoid the problem that the transmission device cannot ensure that the reserved resource(s) is/are in the active duration of the reception device. Therefore, the balance between the energy saving and the system performance is achieved.
  • the disclosure also provides a communication device and a readable storage medium.
  • FIG. 5 is a block diagram illustrating a communication device according to an embodiment of the disclosure.
  • the communication devices are intended to represent various forms of digital computers, such as laptop computers, desktop computers, workbenches, personal digital assistants, servers, blade servers, mainframe computers, and other suitable computers.
  • the communication devices may also represent various forms of mobile devices, such as personal digital processors, cellular phones, smart phones, wearable devices, and other similar computing devices.
  • the components shown here, their connections and relations, and their functions are merely examples, and are not intended to limit the implementation of the disclosure described and/or required herein.
  • the communication device includes: one or more processors 501, a memory 502, and interfaces for connecting components, including a high-speed interface and a low-speed interface.
  • the components are interconnected using different buses and may be mounted on a common main board or otherwise mounted as desired.
  • the processor may process instructions executed within the communication device, including instructions stored in or on the memory to display graphical information from the GUI on an external input/output device. In other implementations, multiple processors and/or buses may be used with multiple memories, if desired.
  • a plurality of communication devices can be connected each providing a part of necessary operations (e.g., as a server array, a group of blade servers, or a multiprocessor system).
  • An example of a processor 501 is shown in FIG. 5 .
  • the memory 502 is the non-transitory computer readable storage medium provided in the disclosure.
  • the memory stores instructions executable by at least one processor, to cause the at least one processor to execute the method provided by the disclosure.
  • the non-transitory computer readable storage medium of the disclosure stores computer instructions that are used to cause a computer to implement the method provided by the disclosure.
  • the memory 502 can be used to store non-transitory software programs, non-transitory computer executable programs and modules, such as the program instructions/modules corresponding to the method in the embodiment of the disclosure.
  • the processor 501 executes various functional applications of the server and data processing by running the non-transitory software programs, instructions, and modules stored in the memory 502, i.e., implement the method in the method embodiments described above.
  • the memory 502 may include a storage program area and a storage data area.
  • the storage program area may store an operating system, and applications required for at least one function.
  • the storage data area may store data created based on the use of the positioning communication device, and the like.
  • the memory 502 may include a high-speed random access memory, and a non-transitory memory, such as at least one disk memory device, flash memory device, or other non-transitory solid state memory device.
  • the memory 502 may include memories that are remotely set relative to the processor 501, and these remote memories may be connected to the positioning communication device via a network. Examples of the network include, but are not limited to, the Internet, corporate intranets, local area networks, mobile communication networks, and combinations thereof.
  • the communication device for performing the method for controlling a sidelink communication may also include: an input device 503 and an output device 504.
  • the processor 501, the memory 502, the input device 503, and the output device 504 may be connected via buses or otherwise. For example, the connections in FIG. 5 are implemented by buses.
  • the input device 503 may receive input numbers or character information, and key signal input related to user settings for the positioning communication device and functional control, such as a touch screen, a keypad, a mouse, a trackpad, a touchpad, indicator rod, one or more mouse buttons, trackballs, joysticks, and other input devices.
  • the output device 504 may include a display device, an auxiliary illuminating device (e.g., LED), and a haptic feedback device (e.g., vibration motor), etc.
  • the display device may include, but is not limited to, a Liquid Crystal Display (LCD), a Light Emitting Diode (LED) display, and a plasma display. In some embodiments, the display device may be a touch screen.
  • implementations of the systems and techniques described herein may be implemented in a digital electronic circuit system, an integrated circuit system, an Application Specific Integrated Circuit (ASIC), computer hardware, firmware, software, and/or combinations thereof.
  • ASIC Application Specific Integrated Circuit
  • These various implementations may include: implementations in one or more computer programs, in which the one or more computer programs may be executed and/or interpreted on a programmable system including at least one programmable processor, which may be a dedicated or general-purpose programmable processor that may receive data and instructions from a storage system, at least one input device, and at least one output device, and send the data and instructions to the storage system, the at least one input device, and the at least one output device.
  • machine-readable medium and “computer-readable medium” refer to any computer program product, device, and/or apparatus (e.g., disk, Compact Disc Read-Only Memories (CD-ROM), memory, Programmable Logic Device (PLD)) used to provide machine instructions and/or data to a programmable processor, including machine-readable medium that receives machine instructions as machine-readable signals.
  • machine-readable signal refers to any signal used to provide machine instructions and/or data to the programmable processor.
  • the systems and techniques described herein may be implemented on a computer having a display device (e.g., a Cathode Ray Tube (CRT) or a Liquid Crystal Display (LCD) monitor) for displaying information to a user; and a keyboard and pointing device (such as a mouse or trackball) through which the user can provide input to the computer.
  • a display device e.g., a Cathode Ray Tube (CRT) or a Liquid Crystal Display (LCD) monitor
  • a keyboard and pointing device such as a mouse or trackball
  • Other kinds of devices may also be used to provide interaction with the user.
  • the feedback provided to the user may be any form of sensory feedback (e.g., visual feedback, auditory feedback, or haptic feedback), and the input from the user may be received in any form (including acoustic input, voice input, or tactile input).
  • the systems and technologies described herein can be implemented in a computing system that includes background components (for example, a data server), or a computing system that includes middleware components (for example, an application server), or a computing system that includes front-end components (for example, a user computer with a graphical user interface or a web browser, through which the user can interact with the implementation of the systems and technologies described herein), or include such background components, intermediate computing components, or any combination of front-end components.
  • the components of the system may be interconnected by any form or medium of digital data communication (e.g., a communication network). Examples of communication networks include: a Local Area Network (LAN), a Wide Area Network (WAN), and the Internet.
  • the computer system may include a client and a server.
  • the client and server are generally remote from each other and interacting through a communication network.
  • the client-server relation is generated by computer programs running on the respective computers and having a client-server relation with each other.
  • the transmission device directly sends the sidelink control signaling to the UE, in which the sidelink control signaling carries the indication information for controlling the reception device to perform the DRX operation. In this way, the problem that the transmission device cannot ensure that the reserved resource(s) is/are within the active duration of the reception device, and the energy saving and the system performance are balanced.

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EP21918318.3A 2021-01-13 2021-01-13 Procédé et appareil de commande de communication directe, dispositifs, et support de stockage associé Pending EP4280801A4 (fr)

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